Accelerating electrons

I was always interested why have scientists tried to speed up electrons to the speed of light, unless they were trying to disprove the absolutness of speed of light itself, which highly unlikely was their intention.

I mean, when electromagnetic device is used to speed the electron then photons are the mediators, right? Since photons move at c then I suppose it is natural to expect that as electron approach the speed of light it will be harder and harder to accelerate it further.

My question is: Does indeed anything happen with the electron mass at high speeds, or is it just a convenient explanation of reduced ability to speed up electrons close to (or beyond?!?) the speed of the mediators?

There are lots of reasons to speed up electrons (and other particles) to relativistic speeds. Its quite well agreed that the speed of light, really is (unfortunately) the maximum, and i don't think many people are still trying to disprove that.

As the electrons speed up, they become significantly more massive (this has been measured / confirmed). As they approach the speed of light, they become infinitely massive, and would require an infinite amount of force (and energy) to accelerate it further -> hence they cannot pass the speed of light.

You're argument about E&M being mediated by photons is an interesting and good one, but because of special relativity, from the electron's reference frame, the photons are still going the speed of light faster than it, and still successfully mediate the applied forces.

Electrons cant speed up to the speed of light,acording to relativity theory their mass will approach infinity which is impossible,As the rest mass of electron is not zero.ALSO INFINITE FORCE IS REQUIRED TO ACCELERATE SOMETHING HAVING INFINITE MASS.
Rashid Iqbal
Physics Teacher

Staff: Mentor

I was always interested why have scientists tried to speed up electrons to the speed of light, unless they were trying to disprove the absolutness of speed of light itself, which highly unlikely was their intention.

Even though the electrons can't go faster than the speed of light, we can still make their energy as large as we want (or at least, as large as we have the resources to do so). High-energy electrons are a useful tool for probing the structure of matter, by studying how they scatter off other things.